To determine The estimate speed of the river current. The drag on the cork ball. Explanation The figure (1) represents the free body diagram. Figure (1) Write the expression for weight of spherical cork. W = S G ρ g V (I) Here, specific gravity of cork is S G , density is ρ , gravity is g , volume is V . Write the expression for volume of spherical cork. V = 4 3 π ( D 2 ) 3 (II) Here, diameter of cork is D . Write the expression for buoyancy force acting on cork. F B = ρ g V (III) Write the expression for equilibrium force for cork. W + D tan θ − F B = 0 D tan θ = F B − W D = F B − W tan θ (IV) Here, the angle of inclination of cork from bottom of the river is θ . Write the expression for drag force. D = 1 2 ρ U 2 C D A (V) Here, density of water is ρ , velocity of falling of body is U , coefficient of drag is c D , area of body is A . Write the expression for Reynolds number. Re = U D υ (VI) Here, kinematic viscosity is υ . Write the expression for area of circle. A = π D 2 4 (VII) Conclusion: Refer to Table-B-2 “physical properties of water” to obtain value of density as 999 kg / m 3 and kinematic viscosity as 1.12 × 10 − 6 m 2 / s . Substitute 0.3 m for D in Equation (II). V = 4 3 π ( 0.3 m ) 3 = 4 3 π ( 0.027 m 3 ) = 0.01413 m 3 Substitute 999 kg / m 3 for ρ , 9.81 m / s 2 for g , 0.21 for S G , 0.01413 m 3 for V in Equation (I). W = ( 0.21 ) ( 999 kg / m 3 ) ( 9.81 m / s 2 ) ( 0.01413 m 3 ) = ( 209.8 kg / m 3 ) ( 0.139 m 4 / s 2 ) = 29.08 N Substitute 999 kg / m 3 for ρ , 9.81 m / s 2 for g , 0.01413 m 3 for V in Equation (III). F B = ( 999 kg / m 3 ) ( 9.81 m / s 2 ) ( 0.01413 m 3 ) = ( 9800.2 kg / m 2 ⋅ s 2 ) ( 0.01413 m 3 ) = 138

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Chapter 9.3, Problem 82P

To determine

The estimate speed of the river current.

The drag on the cork ball.

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Chapter 9.3, Problem 81P

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